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shivakumar06
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is genes responsible for natural death in animals and human beings due to aging. can aging process be reversed by controlling biological clock
shivakumar06 said:is genes responsible for natural death in animals and human beings due to aging. can aging process be reversed by controlling biological clock
Evolution is a process that occurs over generations, not individual organisms.Jarfi said:Anyways, all you need to become young are genes that are good, your genes become deteriorated with time, and get all sort of flaws... once in a million time they mutate for your good(evolution) but mostly it just causes nothing to happened... or biological faliures.
There are other factors in ageing such as cellular senescence via telomere length and tissue degradation leading to age related diseases. I highly doubt that all of ageing can be linked to accumulated DNA damage or that simply fixing said damage would cause tissue regeneration.Jarfi said:Simply do this to become young:
replace all your genes by the genes you had when you were young
True, there are other factors such as protein damage that are also very important.Ryan_m_b said:There are other factors in ageing such as cellular senescence via telomere length and tissue degradation leading to age related diseases. I highly doubt that all of ageing can be linked to accumulated DNA damage or that simply fixing said damage would cause tissue regeneration.
Ryan_m_b said:Evolution is a process that occurs over generations, not individual organisms.
There are other factors in ageing such as cellular senescence via telomere length and tissue degradation leading to age related diseases. I highly doubt that all of ageing can be linked to accumulated DNA damage or that simply fixing said damage would cause tissue regeneration.
shivakumar06 said:is genes responsible for natural death in animals and human beings due to aging. can aging process be reversed by controlling biological clock
enosis_ said:Were the responses sufficient to address your original question?
shuvakumar06 said:what causes grey hair, stoppage of growth in height and old age disease like blood pressure, etc.can man live for more than 120 year?
Not right now.shivakumar06 said:the question that is in my mind is that is it in theory at least possible to make a blue print for immortality
Not right now - still doing the feasability studies.shivakumar06 said:the question that is in my mind is that is it in theory at least possible to make a blue print for immortality
Not always, much of the time the degradation is accumulated by the tissues and not healed. Think scars for instance, there's nothing wrong with the DNA but the tissue hasn't healed properly. Just fixing the DNA would not be enough.Jarfi said:Um okay, I'm pretty sure protein damage... AND tissue damage can all be linked to dna deterioration, the faulty dna makes for faulty tissue.
We don't even have a good enough understanding of ageing to take a stab at that.shivakumar06 said:the question that is in my mind is that is it in theory at least possible to make a blue print for immortality
Genes play a significant role in determining the lifespan of an organism. They can influence the development of diseases and the body's ability to fight them off, ultimately leading to death.
There are some genetic mutations that can increase the risk of developing certain diseases or conditions that can lead to premature death. However, these genetic factors are not the sole determining factor and lifestyle and environmental factors also play a role.
There are some genes that have been identified as potential risk factors for certain diseases or conditions that can lead to death. However, the presence of these genes does not necessarily mean an individual will develop the disease or die from it.
Currently, there is no way to alter genes to prevent death. While advances in genetic research and technology have allowed for some diseases to be treated or managed, there is no known method for altering genes to extend lifespan.
There is ongoing research on the potential genetic factors that may contribute to longevity. However, at this time, there is no conclusive evidence that there is a genetic limit to how long a person can live.